DE901688C - Circuit arrangement for generating a high DC voltage from the short saw tooth flank - Google Patents

Description

(WiGBl. P. 175)

ISSUED JANUARY 14, 1954

p 39443 VIII c12ig D

has been named as the inventor

the short sawtooth flank

is used

The invention relates to circuit arrangements for generating a high DC voltage Rectification of the inductance through which a sawtooth-shaped current flows during the short saw tooth flanks. occurring voltage peaks. Such circuit arrangements are ζ. Β. for the purpose of deflecting the electron beam a cathode ray tube, in particular in a television transmitting or receiving device, known, wherein the aforementioned inductance consists of the deflection coils of the tube. This is the one from the rectified return voltage impulses generated high DC voltage as an acceleration voltage used for the cathode ray tube.

With the circuits that have been used up to now this Art ibringt an arbitrary change in the amplitude of the sawtooth current a change in The size of the change in current during the short sawtooth flank with it, and it results from this a change in the amplitude of the flyback voltage peaks and thus a change in size of the generated DC voltage. This resizing is undesirable in many cases. This is e.g. B. the Case when the DC voltage for focusing the cathode ray of a cathode ray tube a television receiver is used, because then an amplitude change of the sawtooth current is the Brings cathode ray out of focus. It is therefore an object of the invention to provide a

Circuit arrangement of this type in which there is no change in amplitude of the sawtooth oscillation large change in the generated DC voltage entails, as it is with the aforementioned circuit arrangements the case is.

Another object of the invention is to provide a simple switching element that do DC voltage generated independently of the amplitude of the sawtooth current to set as it ίο z. B. in a television receiver to accurately focus the cathode ray on the screen the cathode ray tube is required.

According to the invention, a circuit arrangement for generating a high DC voltage by rectifying the ^{voltage peaks occurring at an inductance through which a sawtooth-shaped current flows 1} , during the short sawtooth flanks, in which means for changing the amplitude of the sawtooth current are provided, is characterized in that a controllable Switching element is provided that allows the amount of current change during the short sawtooth flanks to be influenced, but has no effect on the course of the long sawtooth flank, and whose effective value is also changed by the means for changing the amplitude of the sawtooth current is that in the case of amplitude changes, the DC voltage generated is kept essentially constant.

In one embodiment of the invention, said switching element is used to control the Resonance frequency of the circuit containing the inductance. This switching element can, for. B. a be a variable capacitor connected in parallel with the inductor or with a Winding of the coupling transformer, through which the sawtooth-shaped current of said inductance is fed. By regulating the aforementioned variable capacitor, the Size of the current change in the inductance during the period of the short edges of the sawtooth wave changed and, since the amplitude of the voltage pulses is a function of said period, the one obtained from these pulses is DC voltage also changed. If this DC voltage z. B. to the end anode of a Cathode ray tube is applied, the ultor voltage of such a tube can be applied to it Way can be adjusted without affecting the amplitude of the sawtooth deflection current is significantly influenced.

In another embodiment of the invention, devices are arranged through which automatically determines the magnitude of the change in current during the period of the short edge of the sawtame wave with the change in the amplitude of the sawtooth current is changed, whereby the amplitude of the voltage pulse and thus also the constant voltage is kept essentially constant. Where the circuit for generating deflection current for a cathode ray and an ultor voltage is used for a cathode ray tube, the amplitude of the sawtooth current be adjusted in this way so that the amount of beam deflection is changed, without significantly affecting the ultor voltage.

For a better understanding and implementation of the invention it is made with reference to the Drawings described in which various strobe circuit arrangements according to the invention for generating of beam deflection current and ultor voltage for a cathode ray tube are. In Figs. 1 to 9, the same reference numerals are assigned to the parts with the same function.

The circuit shown in Fig. 1 includes an electron discharge tube 1, the anode 2 over the primary winding 3 of a transformer 4 to the positive terminal 5 of a high voltage source (not shown) is connected. The secondary winding 6 of the transformer 4 is with the deflection Si coils: 7 of a cathode ray tube 30 is connected. The cathode 9 'of the tube 1 is via a Cathode resistor 10 with an adjustable tap a resistor 11, one end of which is connected to ground. A grid resistor 12 is connected between said tap and the control electrode 13 of the tube 1. A diode rectifier 14 has its anode connected to the anode 2 of the tube 1, and its Cathode is connected to one electrode of a capacitor 15, the other electrode on Earth is switched. A capacitor 16 is between the high voltage side of the coils 7 and the tapping at the resistor. 11 switched. A variable capacitor 17 is in parallel with the Secondary winding 6, d. H. connected to the deflection coils 7; the control electrode of the tube 1 is over a variable resistor 18 and a capacitor 19 to the anode of an electron discharge tube 20 connected. The anode of the tube 20 is connected to the positive via a resistor 26 High voltage terminal 5 and the cathode connected to earth. A capacitor 21 is between the anode of the tube 20 and earth connected.

In operation, the tube 20 is normally non-conductive, but is energized by positive voltage pulses, which are applied to their control electrode 27, periodically made conductive. The capacitor 21 becomes above the resistance26 in the periods of time charged between the said pulses, and when each pulse occurs the capacitor 21 discharged through the tube 20, whereby a voltage with a sagittal wave at the terminals of the capacitor 21 and via the capacitor and resistor 18 to the control electrode 13 the tube ι is applied. As a result, a voltage pulse is periodically applied to the terminals of the Primary winding of the transformer 4 is generated, where the current in the deflection coils 7 is relative slowly rises in a substantially straight line and the long side of the sawtooth wave generated. During this long side the capacitances 16 and 17 have essentially no input 1 * 5 devoured 'the size of the current changes in the

Wash. When each short side of the sawtooth voltage occurs, ie at the end of each voltage pulse at the terminals of the primary winding of the transformer 4, the current in the deflection coils 7 is reversed relatively quickly. The current in said coils thus has a sawtooth waveform, the long side of which corresponds to the course of the electron beam and the short side of which corresponds to the return. During the rapid fall and the reversal of the current in the deflection coils, a voltage pulse is generated at the terminals of the deflection coils 7, the amplitude of which is dependent on the extent of the current change during the retraction. Since the amplitude of this voltage pulse depends on the magnitude of the change in current, ie on the time during which the current falls and reverses, the amplitude of said voltage pulse is dependent in the same way on the resonance frequency of the deflection coil circuit. The frequency is determined in part by capacitor 16. The ¹ voltage pulses in the primary winding 3 are rectified by the diode 14, and the rectified pulses are fed to the capacitor 15, a DC voltage being essentially generated at the terminals of the capacitor 15. This DC voltage is applied to the end anodes 29 of the cathode ray tube 30 via the conductor 28 and serves primarily to accelerate the electrons in the direction of the screen of the tube and also together with a permanent magnetic lens 31 for focusing the electron beam. The focusing of the electron beam can be adjusted by adjusting the DC voltage.

For the purpose of regulating the amplitude of the deflection current in the coils 7, the tap is on Resistor 11 is set, whereby the gain of the tube 1 is changed. When the resonance frequency of the deflection coil circle remains unchanged, there is a change in the amplitude of the deflection current cause a change in the amplitude of the voltage pulses occurring during retrace and therefore also in the amplitude of the voltage pulses rectified by the diode 14. This means that the DC voltage on: the terminals of the capacitor also changes and thereby the focusing of the Beam of the cathode ray tube 30 interferes. However, since the capacitor 16 between the coils 7 and the tap is switched on .Widerstand 11, 'with the setting of the tap also the effective value of resistor 11 in series with capacitor 16 changed, the effect of the Capacitor 16 with respect to the resonance frequency of the deflection coil circuit automatically changed is that the amplitude of the rectified voltage pulses and the height of the The voltage at the terminals of the capacitor 15 remains essentially unchanged by the change in the amplitude of the deflection current. Included the focusing of the electron beam is essentially not due to the change in the den Deflection coils' applied deflection current influenced. Through the variable capacitor 17, which is shunted to the deflection coils, becomes a means of adjusting the resonance frequency of the deflection coil circuit and further- 'on the size of the current change in the deflection coils provided during the return, which is independent of the devices for setting the amplitude of the deflection current, so that an independent adjustment of the DC voltage is made possible. This provides a simple means of adjusting the focus of the Beam of the cathode ray tube 30 applied. The capacitor 17 can, if desired, be connected in parallel to the primary winding 3 of the transformer 4, as indicated by dashed lines Lines is indicated. Another way of adjusting the focus of the beam can be can be achieved by the variable resistor 18. This changeable resistance represents together with the capacitance of the input electrodes of the tube 1 a system of variable time constant and the setting of the resistor 18 causes a change in the ultor voltage, when the amount of change in the sawtooth voltage applied to the tube 1 during of the return flow is changed, which also go the blocking time of the tube 1 and continue to increase the size the change in current in the coils 7 changes during the retraction. The resistor 18 is during the long side of the sawtooth current with regard to the size of the current change in the coils 7 essentially ineffective. Even if capacitor 17 and resistor 18 in Fig. 1 together are shown, they would not be required in practical execution at the same time.

Fig. 2 shows a variant of the circuit of Fig. 1, with the capacitor 16 omitted and a variable capacitor 32 of suitable characteristics in parallel with the deflection coils 7 is switched. The capacitor 32 is with the button or similar control element for adjustment mechanically connected to the tap at the resistor 11. During the long side of the sawtooth current, the capacitance 32 is ineffective when Return, on the other hand, controls the resonance frequency of the deflection coil circuit. If for the purpose of change the amplitude of the deflection current supplied to the deflection coils, the gain of the Tube 1 is changed, the effective value of the capacitor 32 is changed at the same time, so that the resonance frequency of the deflection coil circuit is changed so that the amplitude of the voltage pulse remains essentially constant during the return. The focus of the The beam occurs by means of resistor 18, as described above.

Albb. 3 shows a further embodiment, the capacitor 16 being omitted, and a capacitor 34 in series with a variable resistor 35 between anode and control electrode the tube 1 is switched. By adjusting the resistor 35, the degree becomes negative

Feedback at high frequencies, i.e. H. while the return regulated and the duration of the short side of the tube ι impressed sawtooth voltage changed, thereby changing the magnitude of the change in the current in the deflection coils changes during the retrace period. In this way the ultor voltage can be independent regulated by the amplitude of the 'deflection current will. In this case the resistor i8 ίο can be omitted. If desired, the Maintain resistance 18 and resistance 35 be coupled to the resistor 11, so that when setting the Resistance 11 for the purpose Change the amplitude of the deflection current, the simultaneous adjustment of the resistor 35 serves to change the amount of negative feedback, which reduces the ultor voltage im essential unchanged: should, so that the focus is not disturbed. Widerao Stand 18 and 35 are during the long side period of the sawtooth current in view on the size of the current change in the coils 7 ineffective.

Fig. 4 shows another embodiment of this invention in which a cathode resistor 10 and Grid resistor 12 are connected directly to earth and resistor 10 is a: shunt capacitor 36 has. As in the circles in Fig. 1 to 3 ■ a voltage becomes with a sawtooth waveform placed on the control electrode 13 of the tube 1, so that the sawtooth waveform current is generated in the deflection coils 7. The anode the tube 20 is connected via a resistor 37 to a tapping one through the resistors 38 and 39 formed potentiometer connected, whereby - the resistors 38 and 39 between! the high-voltage terminal 5 and earth connected in series are. To change the amplitude of the sawtooth current supplied to the deflection coils 7, becomes the amplitude of the sawtooth voltage impressed by the tube 1 on the control electrode 13 changed by setting the tap on resistor 38. To prevent the ultor voltage is influenced by this bin regulation is a capacitor 40, which during the period of the long sides of the sawtooth current is ineffective between the tap on the resistor 38 and the junction of the primary winding 3 is connected to the anode of the diode 14, so that when the said tap is set, the effect of the capacitor 40 on the determination the resonance frequency of the deflection coil circuit automatically in such a sense! will be changed, that 'the amplitude of the voltage pulses to the Clamping of the primary winding 3 during retraction when there is a change in the amplitude of the Deflection current remains essentially unchanged. With the help of variable resistance the ultor voltage can be adjusted independently.

Fig. 5 shows the part of a circle, are provided in the means for damping the deflection coil circuit, wherein the attenuation corresponding to the amplitude of the Ablenküngsstromes in the Ab · ⁴ is controlled lenkungsspiulen. In this case, the capacitor 16 is made much larger than in an arrangement as in Fig. 1 would be required, and a resistor 41 is connected in series with the capacitor 16, the resistor 41 being so large that the combination of capacitor 16 and resistor 41 has such a value that the deflection coil circuit is only slightly attenuated, when the variable resistor 11 is set to the largest resistance value. When the effective value of the resistor 11 is reduced in order to increase the amplitude of the deflection current, the deflection coil circuit is attenuated to an increased extent, which prevents the amplitude of the voltage pulses from being increased substantially during the retrace, and the end-of-line voltage, ie the DC voltage at the terminals of the Capacitor 15 remains essentially unchanged. The ultor voltage can be regulated independently with the help of the variable resistor 18 ..

Fig. 6 shows another circuit in which means are provided for regulating the amount of change in the current in the deflection coils during the periods of the short sides of the sawtooth voltage that is pressed on the electron discharge tube ι used to deliver the sawtooth current to the deflection coils. Normally, said short sides serve to rapidly depress the current in said tube until it is shut off, so that the deflection current in the coils can rapidly reverse without the flow from said tube which would cause a delay in the reversal of the deflection current to be disabled. The mentioned means contain the variable resistor 42, which is connected between the anode of the tube 20 'and the junction of the capacitors 19 and 2 ¹ I, the resistor 42 being coupled to the control element of the resistor 11, so that when the RMS value of the resistor 11 for the purpose of changing the gain of the tube 1, the RMS value of the resistor 42 is also changed, whereby it should be achieved that in a suitable manner nc the discharge of the capacitor 21 is changed so that the amplitude of the deflection coils during the periods , the short sides of the sawtooth current generated voltage pulses remain essentially unaffected when controlling the amplitude of the sawtooth current. The resistor is essentially ineffective during the long side periods of the sawtooth current.

Fig. 7 shows an arrangement in which an inductive impedance 43 between the resistor 10 ¹ and the variable resistor 11 is connected. The value of the impedance 43 is so large that at a value of zero for the effective value of the resistor 11 when the short side of the sawtooth voltage generated by the tube 20 is generated, the grain

higher frequency components and a lengthening of the flyback period occurs and continues changes the magnitude of the change in current during the flyback period. The resistance ii has im Shunted a capacitive impedance 44, which has such a value that at a maximum value of the RMS value 'of the resistor 11 essentially no flattening of the short side of the sawtooth voltage, but maximum flattening of the long side occurs.

By correct choice of the values of the impedance 43 and 44 can be achieved that the return time in such a way with the amplitude of the sawtooth current that the anode voltage of the cathode ray tube 30 remains substantially constant. In the shunt to impedance 43 ■ is a resistance. 45, which is used to suppress unwanted resonances. The Einregekmg of The ultor voltage is brought about with the aid of the variable resistor 18.

Fig. 8 shows a further embodiment of the invention in which a sawtooth voltage which, as described above, can be generated via the capacitor 19, the variable resistor i'8 and a fixed grid resistor 48 to the control electrode of the electron discharge amplifier tube 1 is placed. The anode of the tube 1 has a tap on the primary winding one with two secondary windings 51 and 52 provided Transformer 50 connected. The grid electrode of the tube 1 is via a voltage pick-up all resistance and 53 with the positive high voltage terminal 5 and connected to earth via the decoupling capacitor 54. The sawtooth-shaped one The output current of the tube 1 is fed to the line scanning coils 7 via the transformer 50, and the ends of these coils are connected to one end of the secondary winding 51 and a tap, respectively connected to this secondary winding.

One end of the primary winding of the transformer 50 is connected to earth via a capacitor 57 and the other end of this primary winding is connected to the anode of the diode 14, the cathode of which is connected via a capacitor 15 to the anode of a diode 60, the cathode of which is also connected via the capacitor 57 on, earth is placed ¹ . One end of the secondary winding 51 is connected to the high-voltage terminal 5 and the other end to the anode of the diode 60. The ends of the secondary winding 52 are connected to the clamping of the filament of the diode 14 to provide heating current, and one end of the winding 52 is connected to the anode 29 of the cathode ray tube 30 via the line 20 which contains a resistor 61.

The operation of the circuit is as follows: The

■ Diode 60 is used to reduce the im. Deflection coil circuit voltage pulse generated at the end of the period of the short side of the sawtooth current dampen and also improve the straightness of the long side as it does throughout the whole Duration or a large part of the duration of the long side is conductive.

The positive potential for the anode of tube 1 becomes from the high voltage terminal 5 via the winding 51 of the transformer 50, the diode 60 and the primary winding of the transformer 50 and taken through the terminal voltage of the Capacitor 57, which is generated by the rectified current of the diode 60, is increased. the at the terminals of the ends of the primary winding of transformer 50 during the short sides of the sawtooth current supplied to the coils 7 occurring high voltage pulses of the diode 14 fed, rectified by it and an electrade of the capacitor 15 pressed. Since the other electrode of the capacitor 15 with the Secondary winding 51 is connected, from the diode 14 also the pulses of smaller size, the occur at the terminals of the secondary winding 51 during the period of the short side, rectified, the total voltage at the terminals of the capacitor 15 being dependent on the sum of the pulses applied to its electrodes. This relatively high voltage that is smoothed by the capacitor 15, the end anode 29 of the cathode ray tube is passed through the resistor 61 30 pushed on.

The resistor 61 is used to increase the capacity of the Separate cathode ray tube electrodes from the secondary winding 52 and cooperates with the stray capacitance of the cathode ray tube as a filter that serves to 'smooth the rectified Improve impulses and emit harmonics of the impulses the conductor 28 to reduce or prevent.

The amplitude of the sawtooth current supplied to the deflection coils becomes negative Feedback via a variable resistor-11 regulated between the cathode of tube 1 and earth in series with the fixed bias resistor 10 is switched. The control electrode 'of the tube 1 is through the fixed resistor 12 and a capacitor 66 connected to ground, the ends of resistors 10 and 12, which are not connected to the cathode or control electrode, are connected to one another. The Konderl - Sator 66 is chosen so large that no appreciable flattening of the higher frequencies during the short sides of the sawtooth current occurs. When the rms value of the resistor 11 increases is, the amplitude of the sawtooth current in tube 1 is reduced, while the effective Size of the change in the current in the coils 7 during the short sides of the sawtooth current remains essentially constant. Thus the inclination of the arrangement winds with a decrease the amplitude of the sawtooth current results in a reduction in the anode voltage of the cathode ray tube bring about, diminished.

The variable resistor 18 is used to regulate the focusing of the electron beam. The beam is focused by the anode voltage in the cathode ray tube Connection with the constant value of the electron lenses 31 generated by permanent magnets

begot field. The setting of the resistor 18 causes a change in the anode voltage mentioned by changing the extent of the voltage change during the short sides of the sawtooth voltage applied to the tube ι ', the variable resistor i8 together with the capacitance of the input electrodes' of the tube ι a system of variable time constant Control of the size of the blocking time of the tube ι forms. ίο The ratio of resistors i8 and 12 is important as it controls the tendency for the image width to change with changes in the anode voltage of the cathode ray tube due to changes in the jet velocity ¹ . So reduced z. B. an increase in the value of resistor 18 reduces the amount of change in the sawtooth voltage during the period of its short sides and therefore also decreases the anode voltage of the cathode ray tube. Under these circumstances, the image width tends to increase, but this tendency is counteracted by lowering the input voltage of the tube 1 according to the ratio of the resistors 18 and 12.

The circuit shown in Figure 9 represents part of an arrangement that is similar to the arrangement in Fig. 8 except that the capacitor 66 is omitted and a capacitor 67 between the cathode and the control electrode of the tube 1 is connected. The capacitor 67 serves together with the variable resistor 48 to create a variable time constant circle which determines the effective input time constant of tube 1. By adjusting the resistance 48 the ultor voltage of the cathode ray tube can be regulated. The cathode resistors 10 and 11 establish a negative feedback path which is the effective capacitance of the input circuit including the capacitor 67 of the tube 1 is determined. By changing the resistance 11 becomes the gain of the tube 1 and thus the amplitude of the deflection coils supplied Sawtooth current changed. At the same time, however, it causes the change in the effective ♦ 5 capacity of the input circuit of tube 1 that the The amount of change in voltage. the control electrode of the tube 1 during the return times is changed in such a way that the amplitude of the diode 14 equidistant-So Teten voltage pulses remains essentially constant, so that the focusing of the electron beam remains unaffected by changes in the amplitude of the deflection current. In some In cases, the capacitor 67 can be omitted ^ if the input capacitance of the tube 1 is big enough.

Claims (10)

Patent claims: i. Circuit arrangement for generating a high DC voltage by rectifying the at an inductance through which a sawtooth-shaped current flows during the short sawtooth flanks occurring voltage peaks, in the means for changing the amplitude of the Sawtooth current are provided, characterized in that a controllable switching element it is provided that the amount of current change during the short sawtooth edges influence allowed, but without influence on the course of the long sawtooth flank and its effective value with the means for changing the amplitude of the sawtooth current is also changed in such a way that the generated DC voltage when the amplitude changes is kept essentially constant. 2. Circuit arrangement according to claim i, characterized characterized in that said switching element has the resonance frequency of the inductance containing circuit regulates. 3. Circuit arrangement according to claim 2, characterized in that the switching element is a capacitor coupled to the inductor. 4. Circuit arrangement according to claim 1, characterized in that said Switching element regulates the damping of the circuit containing the inductance. ■ 5. Circuit arrangement according to claim 1, in ■ the means for generating the sawtooth current contain an electron discharge tube, whose output circuit 'with the inductance is coupled, and in which means are provided for the flow of current · in the tube periodically reduce, characterized in that said switching element for regulating this current flow reduction is used. 6. Circuit arrangement according to claim, characterized characterized in that said switching element is part of a variable timing element in the input circle 'of the tube. 7. Circuit arrangement according to claim 1 with an electron discharge tube with negative feedback path for feeding in the sawtooth current into the inductance, characterized in that said switching element for Serves rules of negative feedback. 8. Circuit arrangement according to any one of the preceding claims, characterized in that that said switching element is connected in such a way that its size the rectified voltage changes. 9. Circuit arrangement according to any one of claims 1 to 7, characterized by a Control element for the amplitude of the sawtooth current and means through which at a Adjustment of the control element at the same time the effective size of said switching element • is changed so that the size of the current change and the rectified voltage iao remains essentially constant. 10. Circuit arrangement according to any one of the preceding claims for use in the case of a television set with a cathode ray tube, in which the deflection coils of the correspond to the inductance mentioned, thereby indicates that the rectified voltage as the ultor voltage of the cathode ray tube is used. ii. Circuit arrangement according to claims ι o, characterized in that the cathode ray tube with permanent magnetic electron lines is provided, which support the focusing of the electron beam, and that said switching element does the job has to regulate the voltage for the precise adjustment of the focusing 'of the electron beam. Referred publications:
German patent specification No. 729481. 1 sheet of drawings © 5677 1.54